Contbol device fob refrigerating apparatus



s. MCCLELLAN. CONTRGL DEVQCE FOR REFRIGERAUNG APPARATUS.

APPLICATION FILED MN. 4. i915,

2 SHEETS-SHEET 2.

UNITED STATES PATENT OFFICE..

`BENJAMIN S. MCCLELLAN, OF CHICAGO, ILLINOIS. i

CONTROL DEVICE FOR REFRIGERATING APPARATUS.

Application led January 4, 1915.

To all whom 'it lmay concern Be it known that I, BENJAMIN S. Mc- CLELLAN, a. citizen of the United States, and a resident of Chicago, in. the county of Cook and State of Illinois, have invented certain new and useful Improvements in Control Devices foi'-Rct'iigeratiiig Apparatus; and I do hereby declare that the following is a iull, clear, and eXact description thereof, reference being had to the accompanying drawings, and to the characters of reference marked thereon, which ilorm a` part of this speciication.

lhis invention relates to improvements in controlling or regulating devices adapted for use in connection with relrigerating apparatus, of that character in which the i:efrigeration .is effected by the absorption of heat from the medium to be refrigerated, by the expansion of ammonia from-its liquid to gaseous state, and the restoration of the ammonia gas to its liquid vstate by the removal of the latent heat of the gas through the medium of a heat-absorbing agent, as tor instance water.

A refrigeraling apparatus comprises as its principal elements an ammonia compressor,A

rfr'igerating coils and an ammonia condenser; the compressor serving to compress to a high pressure the ammonia gas discharged from the expansion coils, and the condenser acting to liquet'y the gas thus compressed by the removal of the latent heat ot` the gas. The operation of compressing the gas is accompanied by the generation of an amount ct sensible heat equivalent to the work expended by the compressor in compressing the gas, and therefore, to prevent',

the compressor from becoming overheated, the sensible heat is conducted therefrom by water-jacketing the cylinder of the compressor and supplyingr a continuous flow of cooling water therethrough. The condensation of the gas to its liquid i'orm'also requires the presence of cooling water as an agent for' removing the latent heat of the gas. It is therefore apparent that the proper and safe operation of a refrigerating -plant is largely dependent upon a constant and certain flow of water through the condenser and water jacket ot' the compressor. and to such a degree that the operation of the apparatus without the proper supplyof vater would lead to serious ir' not dangerousresults.

One of the objects Specification of Letters Patent.

of my invention is toY Patented Aug. e, 1ere.l semi No. 352.

provide a device that will auginatically shut vdown or stop the apparatus when the supply of water for any reason fails. This device comprises ingeneral a pressure-controlled Valve in the water supply pipe, and connected with an electric switch adapted to control the current supply to the motor of the compressor, said valve and switch being 4so arranged as to, automatically throw out the switch and to stop the compressor, when the flow of water is interrupted or stopped.

`maximum and minimum degrees of tein- .perature, as are determined by regulation of said thermostatic unit. By this arrangement the apparatus is automatically stopped by the interruption of the water supply, and

the operator immediately notified, by an alarm, of the conditions, and, by means of the same alarm, `the Operator may know when to start or stop the apparatus. and to thereby increase or decrease the temperature within thev refrigeratingspace, asthe case may be. ,i. .l n; Y

The. features embodied in invention consist in the matters hereinafter described and fully illustrated in the accompanying drawings, in which- Figure lv is a diagrammatic representation of a refrigerating apparatus embodying the features of my invention; Fig. 2 is an enlarged, detail view-showing the aut0- matically controlled switch in section, the .water supply valve in elevation, and a diagrammatic representation of the electricaly Referring first to the arrangement of' a ss l,

ioo

refrigerating apparatus to which my invention is particularly applicable, the compressor 1.0 is of the usual type, having a cylinder 11 provided with a water jacket. The compressor is shown in F ig. 1 as mounted upon a suitable base 112, which pports also a motor 13 in driving conneiitioi. with the compressor by means ot' a ltiff passing from the driving pulley of sain motor about the ily-wheel 15 of the compressor. Mount ed upon the base 12 is an ammonia condenser 16, and supported beneath the base is a liquid ammonia tank 17. The arrangement of piping in connection with the condenser and ammonia tank will hereinafter be fully described. Thc refrigerating space is shown in Fig. 1 as surrounded by walls 1S, and may represent any compartment or space adapted to be maintained at a low temperature, as for instance a small household refrigerator or even a large .cold storage room the walls of which are properly insulated. YWithin the refrigerating space is mounted a tank 19 adapted to contain a brine solution, and aseries of expansion coils 20, a portion of which vare contained and inimersed within the brine lof the tank 1S). These coils may be of any desired form, al.- though shown herein as comprising one portion ot several horizontal turns located. in the upper portion ofthe refrigerating spaceand the other portion consisting ci' spirally arranged coils within the tank if). The coils form a continuous passage for the ammonia gas, which enters the coils through the pipe 2l .and leaves the saine through the pipe 22, lthe latter. extending downwardly and communicating with the inlet side of the compression chamber ofthe compressor cylinder` at 23, said pipe being properly termed the suction return pipe,V as inafter appear. Communicating with the discharge side of the compression chamber of said compressor, is a pipe 2% which extends to the condenser 16, entering the upper end of the ammonia condensing chamber thereof. The pipe 24 conducts the coinpressed annn'onia gas from the compressor to the condenser, and,.in order to remove any oil that may be suspended in or carried by said gas, there is preferably provided an oil separator Q5 of any suitable construction and provided with a return or drain pipe 9G communicating with the crank case ot the compressor. The lower end ot.' the ammonia condensing chamber ot said condenser 1G communicates with the liquid ammonia tank li'. by the pipe 27, said tank being the storage tank for the supply of liquid ammonia. pipe Q8. known as the liquid ammonia pipe, extends vertically iipwarih and is connected with an expansion valve 29,. which is also connected with the pipe '2l leading to the expansion coils 20. The expansion alve,

which may be of any desired construction, is

will hcre- ,of said orifice. dueto the suction in the adapted to admit a small quantity of the liquid am'n'ionia into the expansion coils 20,

thereby affecting the expansion of the am monia to .its gaseous state, as will hereinafter appear. The pipe 28 isprovided with 10 a shut-ottx valve, 30, located adjacent to the expansion valve 29. the same. being a twoway. haiul-operated valve, adapted to be used to shut oil' the supply of liquid ammonia to the expansion coils, when desired.

For convenience.y said valve. 30 is provided with a dial having the running and stop positions indicated thereon, and a pointer upon the handle, to indicate the position ot the valve.

as shown.

The water supply enters the apparatus through the pipe $32, and passes lirst through a hand-operated, shut-olf valve ll. hcreiu- 35 after to be fully described, and from thence through the pressure-controlled valve ll, operatively connected with an electric switch 255. The details of construction oi these ii'ie'niliers will hereinafter he more fully de- 9o scribed in connection with the alarm device7 the shut-oiat1 valve 33, and the electrical con ncctions between these members. and with the thcrinostatie unit or thermostat ill;

mounted within the ret'rigerating space. 95

'the water supply passes through the casing of said pressui'e-controlled valve iii. and from thence is conducted to the ammonia coiideiisci6, by means ol the pipe 3T. The condenser tacle`v through which the water and ammonia gas are passed. the water and gas being preferably conducted through separate passages or conductors. thereby permitting the i'e moval of the heat from the gas without the mixing or' the two elements. The cooling water leave:x condenser through a pipe 58, which comin sientes with the lower portion of the water jacket of the compressor cylinder 11, and discharged therefrom throughv the. pipe 39, which is'connected with the upper portion ol said jacket and communicates with the sewer or other place of disposal.

A clear understanding yof the operation ofnionia passes through a small orifice in the expansion valve, and is immediately cxpandcd into its gaseous torni Vby reason of the decreased pressure on the discharge side i ic oe P l as will hereinafter appear.

A pressure gage Bl is prefer- 3 ably provided in thereturn suction pipe 22,'

comprises a closed tank or recep- 100 A ssuming the 12 The trans- 13 absorbed by the water.

formation of the ammonia 'from its liquid to gaseous state is accompanied by a great reduction in temperature by reason ol the utilization or absorption ot' the latent heat of the liquid during the vaporization process. The gaseous ammonia at an extremely low temperature enters'theexpansion coils 20--wliich are surrounded by the air within the refrigerating space and brine within the tank l9--tlie sensible heat ot' said surrounding medium being drawn therefrom and absorbed by the ammonia gas. The gas at a somewhat higher temperature, by reason ot' the absorption of heat from the surrounding medium of the coils, is drawn troni the ei;- pansion coils through the return pipe or suetion line 22, by the suction created by the compressor, said gas being drawn into the compressor and compressed to a high pressure and discharged into `the condenser The suction thus produced by the coinpressor also acts to maintain a low pressure within the coils, thus accounting for the expansion of the liquid ammonia to its gaseous state through the agency of the expansion valve. The Contact of the gas with the cooler surface of the passage conducting the cooling water through the condenser, effects the condensation or liquefaction of the highly conipressed gaseous ammonia, the latent heat olf liquefaction ot' the gas being expended and From the condenser` the cooling water, now at a higher temperaed to occupy open and closed positions to shut oil1 and permit the flow of the cooling water in the usual manner. Said valve is" provided with a movable valve handle; 40 connected with the valve member and preferably mounted so that in the closed position (as shown in dotted lines, lifig. said handle extends transversely oit, or at right angles to, the supply pipe 32 or direction of flow. Freni the closed position, the valve handle is adapted to be moved in a counterclockwise direction through an angle of 90 to the open position, as shown in full lines in Fig. The valve handle et@ in this position is parallel with the supply pipe 32 or direction of ilow ot the water.

Supported upon the valve is a disk 41,' provided with a plurality ot terminals or binding poets adapted to have connected tlierefvitli the ends of electric wires or conduc-tors. These binding posts are mounted upon the dislt and adjacent to the periphery thereof, in the following manner: At the upper portion of the disk and adjacent to the. handle 40 when. in open position, are located two binding pests lf2, ft2, spaced a short distance apart and arranged parallel to the supply pipe These binding posts are insulated from the disk yill and from each other by the use of insulating bushings i3, oi' rubberor other suitable material, which surround the stems and extend be- ,tween the surfaces of the disk and other ture, is conducted through the pipe 38 to tliel portions oi" the binding posts in the usual 'water jacket of the compressor, the heat oli s l compression being thereupon absorbed by the water which is discharged at a high temperature through the pipe 89 into the sewer `as before stated. The ammonia, having been Condensed to its liquid state within the condenser, passes from the same into the liquid ammonia' tank 17 through. the pipe 27, to again cycle through the system in the saine manner as before described. lt is to be noted that the constant circulation ot the ammonia liquor and gas is promoted and maintained by the suction produced in the suction lline 22, by the compression of the gas by means of the coiniressor, which creates the low pressure necessary ior the eX- pansion oi: the liquid ammonia to its gaseous state upon its entrance into the refrigerating coils, and cflects also the ilowot the liquid ammonia from the liquor tank 17.

Referring now to the devices embodying theA features of my. invention and constituting an automatic control and alarm system for the apparatus, the saine comprises a plu- 1ality of independent electric circuits operated by and in conjunction with the water supply valve 233, the pressure controlled valve and switch 34- and 35, and the thermostat ilG (Fig. 2).

The shut-olli' valve 33 of the, water supply pipe is ol the ordinary two-way type, adaptnianner, as shown in Fig. Each of these binding posts is provided with a clip or con- ,tact member 45, 45, spaced apart and eX-' tending laterally in the direction ot' the handle 4:0. rlliesecoiitact members are designed to engage a contact piece 4G mounted upon the handle 40 and insulated from saidhandle in any suitable manner, said piece 46 being adapted to form a circuit between, or electrically connect, the binding posts 42 by Contact with both of the Contact members or clips l5, .4,5 ot' said posts when the valve handle is moved to open position, and to .maintain such electrical connection while the valve is in open position. Spaced from ,the binding posts '1l-2, 42, at angles of 90 and 1800, respectively, and locate-dat the periphery oi. the disk on the opposite side thereof troni the path-of movement of the valve handle 40, are other binding posts 47 and' 48, also insulated from thedislt in the same manner as before described; the .binding post l? being located in alinernent with the valve' handle when in closed position (Fig, E), and the post 48 in alinement with said `luuulle when in openposition. These binding posts are designed to have electrical connection with the handle, through the medium oit a metal conductor i-S), comprising a. flexible strip of ine-tal secured to the inner end if the handle. Obviously the contact of so p,

scribed, and thev supply pipe lo binding posts d2,

arrangement oi the elect ic conductors,

this conductor and each of the binding posts 47 and a8, serves to complete a circuit, com- 'prising certain conductors connected. with the binding posts and hereinafter to be de 3Q and other metal parts ot the apparatus connected therewith acting as-acoininon conductor or ground circuit tor bot-h. circuits, as will hereinafter be more clearly brought out. The have each connected therewith electric wires or conductors formn ,ing an electric circuit adapted to be breiten or completed when the handle is moved from open to closed position and vice versa. The embracing the several circuits, will hereinafter be described in detail.

The thermostat 3G comprises as its principal elements, thermal unit 50, consisting.

of two strips ot metal differing in nature and composition 'said strips being with each other and fixed at one and of different lengths, rigidly secured inV contact throughout their lengths, or" their ends 'to a `suitable' y base 5l, and in electrical connection at said tixedcnd with a conductor hereinafter to be described. The upper end ot the longer 'of these strips extends between 'the ends of two spaced contact members 52, 52, preferablyA consisting ot screws mounted at right angles to said thermal unit 50 within supporting members secured to said base 5l. 'each ot said members 53. acting as terminals for wires o r conductors to be nereinatter described and constituting parts of independent electric circuits.

The theory ot' operation ot the thermostat is well understood by those familiar with such devices and may be briefly set forth as 40 the etlect ot a variation of temperatures 6, rigerating space.

upon the metal strips comprising the thermal unit, resulting in the expansion of said metals. Since metals diilering in composition have di'tierent coeliicicnts of expansion 5 or elongation. `a variation in temperatureu'ill causesaid thermal unit to bend cnc way .or the other.l by reason et the unequal elongation ot thc metal strips. rhus when the temperature ot the medium surrounding the thermostat is increased. the strips will be bent or distorted and more laterally into contact with one ot said contact pieces, and, similarly, a decrease in temperature will etiect the bending movement ot the metal strips in the opposite direction and intopontact with the other contact piece ln this Amanner electrical connection may be made through the medium ot the thermal unit with either contact member 52, the same being adjustable to permit contact to take place at various temperatures, predetermined as the maximum and 'minimum teinperature to be maintained within the re- Reterring to the pressure-controlled Valve and switch (Fig. 2), the switch 3.5 is of the well known knife type', comprising a pivoted switch lever 56 secured to a base plate 57, and presided with a switch handle 58',V

adapted to, nieve said lever into and out of engagement with Contact members 59. 'Theswitch is preferably mounted within a metal j scribed, the remaining features of construction ot the switch are similar to the well known forms, and hence need not be described in detail. l

Mounted upon the base plate `'3T-is a coiled spring G1, comprising one or more turns of stout wire., the 'free end of which' bears against the upper portion of the switchlever 56 adjacent to the handle 58. ,This

spring constantly exerts a force on the switch-lever, suilicieiit toy throw the switch out of Contact with the Contact members 59 ot the switch, 'unless the saine is retained by an opposing torce.

The pressure-controlled valve 34 is mounted adjacent to the switch and exterior to the switch box GO, there being provided suitable supporting means. The pressurc-controlled valve comprises the following parts: A valve casing, consisting of two parts 62 and 63, provides a chamber, within which is mounted a diaphragm G4; of a suitable Hexible material secured at its vmargin between the' members 6;), and 63 of the casing; said niembersbeing joined together and. the dial phragni clamped between them by means ot bolts 65 extending through said members-G2 and i325. Communicating with the chamber water entering the casing from one/side thercol', through said pipeBQ, :1nd leaving troni a` point diametrically opposite, by.

means of pipe Si', as shown in Fig. Ll. On

the opposite side ot the diaphragm, andl mounted in, the casing, is a movable pressure bleek Gti-in contact with the diaphragm and rigidly secured to the lower end of a valve stem 6T. The valve stem and a cylindric neck portion GG of' the block 66, project upwardly through an opening in the upper member G3 o'f the casing, said opening being surrounded by an annular tia-nge 63.

Surrounding the lower endiof the valve stem` is a 'coiled spring 68, bearing'at one end against the upper end of the block G6 and at lits other end against a nut G9 having screwthreacledenga gement with the annular flange G3 ottiie casing member 63, and adapted l:forLadd-just-ment thereon, forfthe kpurpose of varying'thetension of said spring 68 upon the pressure block. The valve stein' 67 extends through'thel nut 69, and is slidably mounted at 1ts upper extremity in a bracket 70 selcured to the upper portion of the switch box between said forked arm and the spring 7l long as the water supply is constant and the water fiows uniformly through the appaand a second stop pin 73-located above the uppermost ring 76. The'lever 75 is. also provided' with an arm or detent 75b extending into the switch'box 60 and provided at its end with a downwardly facing notch, adapted to engage a suitable projection 77 secured to the handle 58 of the switch. Immediately above the detent is mounted a contact member 78 secured to a terminal or binding post 79 mounted upon and insulated from the top Wall` of the switch box. The contact member extends downwardly adjacent to the detent and is adapted to have contact therewith when the detent is moved upwardly .in the act of releasing the switch lian'dle 58, as will be pointed out.

The mode of operation and purpose of the `valve may be understood from the following: The pressure of the water flowing through the valve casing-under conditions of a uniform water supply-eis exerted upon the diaphragm within the casing, which acts upon the valve stem 67 through the pressure block 66, and maintains said valve stem in Ielevated position, in which position the detent of the lever 75 engages the projection 77 of the switch handle, and holds the same in closed position, thus permitting the electric current to be supplied to the-,motora So ratus, the switch will be held in closed position and the apparatus will continue to-operate. If the water supply should be interrupted or stopped by losing the water supply valve 33, or by reason of-in accident in the main pumping machinery, or for other reasons uncontrollable by the operator, the

pressure of thewater within the casing will immediately' be decreased, permitting the diaphragm to collapse. The action'of the sprmg 68 upon the pressure block 66 forces the valve stem downwardly, at the same time oscillating the lever 75 sufficiently to permit the switch handle to be released by the detent 75. Under the action of the spring 61,

the switch handle is thrown outwardly and the current supply circuit broken,v thereby 'effecting the imediate stopping o1" the motor and apparatus. lThe release of the switch .handle by the upward movement oi the detent 75b is accompanied by the almost immediate contact of said detent with the contact member 78, for the purpose of completing the circuit of the alarm system, as will be hereinafter pointed out. The function of the spring 7l on the valve stem is to obtain a yielding connection between the lever 7 5 land said valve stem, thereby permitting said lever tok be rotated to move the detent upwardly to allow the switch handle topp locked in closed position, when said valve stern is in its elevated position, as for instance when the switch has been automatically released by the decrease in water pressure, and it is desired to close the switch after the pressure has returned to the normal, or the water supply valve again opened.

Having described the three regulating or controlling members of my device, namely, the shut-oit valve 33, the thermostat 36, and the pressure-controlled valve or switch, the arrangement of the several electrical circuits and elements constituting the alarm system operated by said regulating members, is as follows: Referring to Fig. 2, the arrangement of thc'eleotrical conductors and elements of 'the' alarm system is shown diagrannatically, and comprises the combination of a battery SO and a bell S1, or other electrically excited signal device, and a Aplurality of conductors forming a plurality of circuits, each including said battery and bell,.a.nd one-or more of the regula-ting members before described.

` ln describing the several circuits, it is to be understood that separate signal devices may be used for each circuit, although it is preferred to use' but one which serves each of the several circuits in a manner to con-` sti/tute in effect' independent alarm systems.4 The battery and bell 8O and 81 are shown as connected in series by the conductor 82 connecting the negative pole ofsaid battery witlrone of the terminals of the bell, the' y other terminal of the bell being grounded on the apparatus ythrough thelconductor, as shown at 84.-. The positive pole .of the battery 80 vis connected by a single wire with branch conductors 85 and 86, the conductor 85 leading to the thermostatand connected with the fixed end or lowerter-d minal of the thermal unit 50T` the conductor 86 leading vfrom the battery 'being connected with'one of the binding posts 42 of thev shut-off valve' 33. The' other of saidv posts 42 is electrically connected with the terminal 79 and contact piece78 mounted on the switch box 60, by means ofthe conductor 87. A wire 88 connects the left-hand contact member 52 of the thermostat with the terminal 47 of the shut-off valve, said lefthand contact member 52 being hereinafter teiiiied the high temperature terminal ofthc-thermostat, inasmuch as an increased temperature is'herein-assinned to move the thermal unit 30 into contact with said contact member. Likewise, the other or rightliund contact ii'ieiiiber is termed the low temperature terminal or" the thermostat, in that ay decrease in temperature results in the movement of lthe thermal unit 50 toward and into contact with the said other contact nienilier. rllie so-called low temperature terminal of the thermostat is connected with the terminal i8 of the valve 33 by the conductor 89. t'being remembered tiiat f allof the terminals or binding posts upon the valve 33 are insulated therefrom and from each other, the circuits are completed by means of the Contact members 49 and 46 mounted on said handle, the contact ineinher 49 serving to connect either Aterminal 47 or Li8 with a common return consisting O the Valve, supply pipe and other metal parts of the apparatus. thus completing the ground circuit with the battery and "hell through the conductor 83, it being uiiderstood 'that said conductor is grounded on the apparatus as at 84. Referring now to these several circuits and the manner in which each operates, the first to be considered is that including the battery and heli', the conductor 86, tlie'terminals 42, 42 of the Water supply valve 83, andthe conductor 87 leading to the Contact piece of the switch box. Assuming that the apparatus is 4in operation and the Water supply is con- Y stant, the valve 33 in the Water supply pipe is in open position and the switch is in closed position, as shown in full lines in Fig. 2. n'thisposition of the value 33, the handle is parallel with the supply pipe 32, and the terminals 42, 42 are electrically connected through the medium of the contact piece i6 mounted' on said handle, but since said contact piece insulated from the handle, the alarm circuit is not closed, hence the bell will not be rung waen the valve is in open position. and the water is flowing through the supply pipequnder the proper pressure. ln order to close the oircuit, it is necessary tor the detent T5" to Contact with the contact piecer '78 adjacent thereto, thereby connecting the conductors on either side of the battery S0. through the Groundcircuit. The connection between the etent T5 and contactpiece T8 is eii'ected by the downward 'vertical movement oi"I the valve stem, resulting from the decrease oi the water iowing through the iali'e casing of the pressure-controlled valve 32. in the manner and for the reason hereinbefore pointed out.y Therefore, when the water supply is shut o accidentally and without the knowledge of the operator, the motor is automatically/stopped by the releasing of 'the switch, and, at the same time, the alarm hell 1s rung by the aforesaid closing of the alarm circuit, und the bell continues to ring until the operator closes the water supply cause` the 1lcomplete cessation of the water' supply, it being particularly noted that it.

does in no way eli'ect or stop the operation of the apparatus inasmuch as this 1s accom- 4plished through the inediuimof the pressure-controlled valve actuated by the (lecreaseiii pressure, in the manner hereiubefore set forth.

It is to be noted that the pressure-con- I trolled Valve operates to shut off the motor in the saine manner as described, in the event that the water supply valve is sluit off by the operator, but that in this case the alarm is not sounded inasmuch as the circuit is broken by the disengagement of the Contact piece 4G of the handle 40 with the clips or contact members 45, 45. Obviously the failure of the alarm bell to sound is quite proper, since` the stopping ofthe machine is in this case an act of the operator.

The pressure-controlled valve remains iii4 its switch-releasing positionso long as the water supply is stopped, for the reason that the spring 68 acting on the pressure block 6G holds the valve stem in its lower position,thereby preventing the detent from being lowered into position 'to engage the switch handle. supply is resumed` the switch cannot be lirown in to start the motor, for the reason that the spring 6l prevents the switch from being retained in closed position. I

Referring now to the circuits comprising the thermostat. tho alarm bell and water supply valve 33, these are adapted to sound the alarm when the temperature within' the refrigeratiiig space has reached the predetermined high or low temperatures Whereupoii the apparatus would be started, in the instance that the high temperature is r iai-.hed and stopped when the low temperature is obtained. These circuits comprise several conductors undelectrical elements in common` namely. the battery and bell and 8l with the ground conductor 83, the conductor S5, connectingthe battery with the thermal unit7 andthe ground return through the metal parts of the apparatus. The high and low temperature alarm circuits consist, in combination-With the conductors and elements before mentioned, of the conductor S8 connecting the terminal on the high temperature side of the thermostat with the terminal 47 of the Valve 33, and the conductor 89 connecting the low temperature side ion Therefore, unless the water of thether'mostat with the terminal 4S of said valve. Assuming that the temperature within the refrigerating space has been reduced to the desired temperature, and the apparatusdias been shut down by the closing of the'water supply valve, which, as before stated, eii'ects the automatic throwing out of the motor switch, the water supply valve is in closed position, and the handle thereof is at right angles to the supply pipe andv the contact member 49 of, said handle is in contact with the terminal 47 on said valve, as shown in dotted lines in Fig. 2` In this position of the valve handle, the high temperature alarm circuit is completed or closed, with the exception of the gap hetween the thermal unit 50 and the high temperature contact member .i2 of the thermostat. Under conditions of non-operation of the refrigeratingif-V apparatus, 'the temperature within the retrigeratimgr space will gradually increase until the thermal unit is moved into Contact with the high temperature contact member, thereby completing the circuit, with the result that the bell S2 will ring and continue to do so until the circuit is broken by opening the water supply valve in the act of starting the apparatus, in which.

position the handle 40 of the valve is parallel with the supply pipe and the contact piece 49 is in contact with the terminal 48 (as shown in full lines, F ig. 2). The operation of the apparatus obviously lowers the temperature Within the refrigerating space and the thermal unit is moved toward the low temperature contact member 52 of the thermostat, and at the instant the predetermined low temperature is reached the conta ct takes place, thereby completing the circuit and causing the alarm bell to ring, thereby informing the operator that the rcfrigerating space is sufiiciently cold and that the apparatus may now be shut off by closing1 the water supply valve. The operation .oficiosing,1r the valve under these condi ,ions accomplishes three results, namely, breaks thc low temperature circuit, effects the automatic throwing out of the motor switch, and places the high temperature circuit in readiness to be operated when the temperature again reaches the predetermined maximum temperature at which the retrigerating space is to be maintained.

A. further feature of my invention, and constituting a part of the alarm device, is shown in Fig. 2, in connection with a. startingrheostat ordinarily used in connection with certain types of motors, as for instance a direct current motor. A startingr rheostat, as well known to those familiar with electricity, is a device comprising a plurality of resistance coils placed in series in the current` supply conductors, and means, ordinarily comprising ay movable handle acting to short circuit these resistance coils as the ybe moved in a clockwise direction to short circuit the resistance coils in. the act of sta-rting,y the motor, and adapted to be held in iull load position by means of the electromagnet 92, Adjacent to the rio-load position oiE the handle, shown in dotted lines, I provide two Contact members 93, 93, separated from each other and insulated from the rheostat easing upon which they are mounted. Tl z contact pieces are further located in position to be engaged by a metal connectorV gli, of any suitable construction, mounted upon and insulated from the rheostat handle 9i, said connector acting to electricallyeonnect said contact pieces when said handle is in :ic-load position, that is, when the electric current is shut oil. One of said contact pieces is connected by a conductor .fil to the terminal :i2 upon the shut-oil valve through the conductor 87 with which said conductor 94 is joined;l and the other of said contact pieces grounded to the apparatus as at 95 by means of the conductor 96. This circuit includes also the bell and battery circuit, the same lieing completed bythe conductor 8G connecting;r the battery with the remaining"y terminal 42 of the shut-oit valve 33. The purpose of this portion of the alarm advice may be understood from the following: The starting rheostat is ordinarily placed adjacent to the motor and intermediate said motor and the switch in the power line supplying the current to the motor, in this instance being the water pressure controlled switch 35. It is to be remembered that said switch 35 is only' thrown out and the alarm sounded when the water supply ceases. 'llhereiorm in case' an accident occurred in the .electric current supply, the switch 3 5 would remain in closed position, the apparatus step, and the water suppl't.. c0ntinue, without the operator being notitie-d of the accident by means of the alarm bell. Thepurpose, there-- fore, of the alarm circuitmn .connection with the starting rheostat, is to sound the alarm in the event of the cessation of the. electric current supply to the motor. As before stated, the rheostat handle is released upon the failure of the current supply through the demagnetizing ot the handle retaining electro-magnet 92, and is thrown back to ivi-load position, wherein the metal contact member of said handle closes the alarm circuit through the contact pieces 9S, 93, as shown in dotted/lines in 2, thus effecting the ringirrgot the alarm bell. This notifies the operator that an accident has occurred, and he may then shut oli' the water supply by means of the shut-ofil valve 33, and talre the necessary steps to restore the current supply. The act ot' closing the shut-oil valve,

it will he remeinlnred, opens thealarm circuit hy the disengagement ofthe contact piece l-l') ot' the handle i() iroin the contact members 4;), l2. ln this 111anner the entire apparat-us is shut down, awaiting the restoration 'ot' proper operating conditions.

ily the construction of the regulating devices and arranueinent oi: the alarm system herein described` a means of control for refriueratine' apparatus is obtained, einhodyintry a combined alarm andautomatic stopping; device for rctrigcrating apparatus, dependent upon the position ol' the water supply valve or the pressure ot the cooling,r water supply, and `entirely independent alarm systems dependent upon the temperature within the relirigerating space and the condition of the electric current supply, as well as that of the water supply valve. The relation ot' the positions of the supply valve and the several circuits may be summarized as follows: In the open position of the watcrsupp1y valve, there are three circuits in readiness to he completed, irst, the r=ir cuit through the thermostat 'and the alarn'i hell, indicating; when thc temperature has fallen lielow the predetermined point; ondly. the circuit through the contact mem# heror switch bor; and the detent operated hy the pressure-controllcd valve, thereby "sounding the alarm bell, to indicate that the apparatus has been stopped owing to the failure el the water supply, and, thirdly, the circuit through the rheostat. ln the closed position of the w ter supply valve, one circuit is in readiness to be completed, namely. tric circuit through the high temper`r ature side ot' the thermostat and thc alarm hell` indicating' that the temperature within the rei'rig'erating space has risen alcove the predetermined point and that -hc apparatus is to he started again.

The advantage secured by the features of 'the invention is the assurance of safe operatingr conditions, in that the apparatus is automatically stopped whenever the water supply ceases for any reason whatsoever, and cannotlie again started until the water supply is again resumed-under proper conditions of flow and pressure. Thus the operation ofthe refrigerating apparatus is entirely depend.-

ent. upon the uniformity of flow of the Water supply to the condenser and Water jacket of the comp essor, which, as has been heretofore pointed out. is essential for the operation of the apparatus and the elimination of' dangerous conditions resulting;r from the lack of Water for removing the hentgenerated during the yarious steps in the process of refrigeration.

.Ae further advantage resides in the ar rangement of a plurality oi alarm circuits, wherein a single alarm bell is employed and the application of the water supply valve as a means for placing said alarm hell into one or more of the several circuits, depending on whether the water supply valve is open or closed, each of said circuits being adapted to sound the alarm asthe conditions of temperature and water pressure require. Thus,

under running conditions the alarm bell is sounded to indicate the temperature at which the apparatus is to be stopped, and again rinp's when it is to he again started to raise the temperature to the required' point, in each case the bell haring been automatically changed from the high to tliedow temperature circuit by the closing and openingof the water supply valve. In this manner the ina.- chine is capable of being intermittently operated, that is, operated only for such periods ottime as to maintain the temperature Within the refrigerating space, at the desired point. In the saine manner, the manipulation of the water supply valreacts to place the alarm bell in the circuit ot' the motor switch and startinff rheostat, when said valve is open; thus, 'if tue motor switch is thrown out by the failure of the Water supply, for any reason whatsfmver. or the rheostat andle iS thrown baci: "uy the failure of the Current supply, the alarm bell is sounded, and the alarm continued until the supply valve is shut oil by the operator, thereby requiring the presence of said operator at the apparatus, with the result that. an investigation will be. made and the necessary step taken to resume the water supply in the normal condition. l

The particular features or" construction and arrangement of the regulating and alarm device embodied in my invention may be va,-A

riousliy modified Without deY artinfr from theJ L D spirit of my invention, and for that reason I do not Wish to he limited7 except in so far as specifically pointed out in thev appended claims.

Furthermore, l do not wish to be limited in the application of the invention to the particular apparatus herein shown, inasmuch as it is applicable to any apparatus adapted to be controlled by the pressure of a fluid, or an apparatus operated by any means of motive power, as for instance a steam or internal combustionengine, in which case the pressure control valve would be equally Well adapted to operate a valve controlling the steam or gasolene supply, as the case may he,

or evene switch in electric conductors of the ignition system of an internal combustion engine. So also, the feature ot the alarin device in connection with the starting rhecstat is applicable with any other electrical device, designed to be operated under condi-- tions of no voltage in the current supply conductors, and which will. act to close the alarm cir aiit upon the cessation ot' the current supply, in much the same manner as is accompli shed. by the movement of the handle ot the starting rheostat to no-load position.

I el aim as my invention l. ln refrigerating apparatus, the combination ot a con'iin'essor, means 'for supplying a, cooling inmlium` to the apparatus inchidingr a shut-oli valve, an. alarm circuit arranged to be closed ai'itoniatically by the sation of the cooling water supply, and a switch operatively connected with said shutoff valve and adapted tol open the alarm cir cuit upon the closing ot said shut-oli valve.

2. In a reitrig'erating apparatus, the cour bination of a conipressor, motor for operatingjT said compressor, means for sui'iplying cooling water to said compressor, including a shut-off valve, means automaticaliy operated by the variation in pressure oi the cooling water to control the supply of motive power to said motor, an alarm circuit arranged to be closed upon the cessation ot motive power to said motor and including a switch acting` to open said alarm circuit when the cooling water supply is shut oil through the medium of said shut-olf valve.

9 ln a refrigerating apparatus, the combination of a compressor, a motor for operating said compressor, mea-ns for supplying,r cooling water to the ai'ipaartus, including a shut-oil valve, a switch 'for controlling the current supply to the motor, means operated by the 'ariation in pressure of the cooling water to open said switch upon the cessation of the water supply, and an alarm device including' an electric circuit provided with a switch operated by said. shut-o1ll faire and arranged to be closed when said shut-oli valve is open; said electric circuit being ar ranged to be closed to operate said alarm derice by the opening ot said mot-or switch Ll. ln a refrigeratinev apparatus, the combination ol'i a compressor, a motor tot' oper-at ing` said compressor, a condenseix means for supplying cooling' water to said condenser embracing' a shut-olf valve, a switch for controlling the current supply to said. motor, and provided with tension means constantly acting to throw said switch into open posi' tion, a member arranged to be actuated by the Variation in pressure olE the water supply, including a deteut adapted to removably engage said switch and normally acting to maintain the said switch in closed positio and an alarm device including an electric circuit ar anged to be closed to operate said ofi' valve in said water supply pig alarm deuice, when said valve is operated by the cessation of the rater supply to open said switch.

In a reiirieeratix'ig device, the combinan tion ol a compicssor, a condenser, means supplying cooling water to said condenser, including a water sluit-olii' `falre, an alarm device includir an electric circuit provided with a switch operated by said shut-oli valve, and arranged to he cl d when said valve open, and means operated the 'i ariation of pressure ot said cooling water t3 operate ,raid alarm device. upon the tese-:ation of the water suijiply.

(l. lira retrigeratiiig apparatus, the come bination of a compressor, a condenser, means for supplying` cooling water to said condenser embracing a shut-ott vvalve, a thermostat within the space to be refri :.rated, an alarm dei'ice embracing an electric circuit connected with said thermostat, a switch in said alarm circuit operated by said shut-olf valve, and arranged to close said alarm circuit when said shu'teoi'f valve is in closed position to effect the sounding` of the alarm when a predetermined high temperature is reached within theI space to be refrigerated.

71 In a refrigerati ie apparatus, the combinat-ion of a comp sor, means supplying cooling;` water to said apparatus, including a shut-oil "valve, a thermostat within the space to be refrigi` nted, an alarm device embracing; au electric circuit connected with said tliern'iostat, a switch in said alarm circuit `oipierated by said shut-off valve, and art). in a refrigerati. bination ot' a conipremu a pipi ingr cooling,` water to said apg'nirata niostat in the space to be retrifa nected with said high and low temperature lsides oit said'thermostat, and an electric i l., I* `aiarm device embracmg,i electric cirtzuts `concuit and open the low temperature circuit when said valve is in closed position, and to open the high temperature circuit and close the low temperature circuit when said valve is in open position.

1G, In a refrigerating apparatus, the conibination of a compressor, means for supplying' cooling water to the apparatus, including a shut-oli' valve, th .'niostat in the space to be refrigerated, a switch operated by the variation or' pressure' of the water supply, an alarm device comprisingr parallely arranged circuits embracing the high and low temper- 4sides of said thermostat and a circuit ature including said pressure operated/switch, and means 'tor opening the pressure operated switch circuit and the low temperature circuit ot the thermostat when said shut-oil` valve is closed.

l1, ln a refrigerating apparatus, the combination ot' a cpnipressor, means for supplying cooling water to the apparatus, including a shut-ofi' valve, a thermostat in the space to be refrigerated, a switch operated by the variation of pressure o't' the water supply, an alarm device comprising a low temperature circuit, a high ten'iperature circuit, and a, circuit embracing' said pressure operated switch, all ot said circuits being in parallel, and means-for opening said low temperature circuit Aand the pressure controlled switch .circuit and closing said high temperature circuit when said shut-oit' valve is closed, and :for closingl said low temperature circuit and switch circuit and opening the high tempel'- ature circuit when said shut-oli' valve is in open position.

12. ln a reirigerating apparatus, the comhination ot a compressor, a motor for operating said compressor, a condenser, means ,for supplying coolinpT water to the condenser including' a water shut-ott' valve, a switch tor controllingr the current supply to the motor, means operated by variations in pressure ot' the cooling` water acting,r to el'l'ect the opening ol the current supply switch upon the cessation of the water pressure, an alarm device, and electrically operated means for operating' said alarm device, including a switch operated by the water supply valve and which is closed when said valve is in its open position, a switch operated by .variations in pressure. ot the cooling water and which closed when the said current supl v switch is in its open position; said means acting', at times when the water inlet valve is open, to operate said alarm device.

i3. in a rei'rigerating` apparatus, the combination ot a compressor, a motor tor operating said compressorI` a condenser, means tor supplyingr cooling; water to the condenser includingr a shut-oli' valve, a switch tor controlling the, current suppl).-v to the motor, means operati-.ii by variations in pressure of 'the cooling wateacting to effect the opening;r ot' the current supply switch upon *the cessation of the water pressure, a thermostat, an alarm device. and electricallvv operated means tor operating said alarm device, including a switch operated hy the water supply valve, ard which is closed when said valve in its open position, a switch operated by variations in pressure olf 'the cooling "ater and which is closed when the -said water supply valve is in its open position; said means operatine', at times when said water supply valve is open, to operate said alarm device, either in case the movable member of the thermostat acts on the low temperature contact thereof, or in case the current supply switch is opened by the cessation of the water pressure.

la. In a refrigerating apparatus, the combination oi a compressor, a, motor tor operating,Y said compressor, a condenser, means for supplying cooling water to said condenser, including a lshut-off valve, a switch for controlling the current supply to the motor, means operated bU variations in pressure or' the coolinT water, acting to etl'ect the opening of the current supply switch 'upon the cessation of the water pressure, a thermostat, an alarm device, andelectrically op-v f erated means for actuating said alarm device including a switch operated by said water supply valve, and which is closed whenthe said valve is in' its closed position; said means operating. at times when the water supply valve is closed, to operate said alarm device when the movable member of the thermostat acts on thehigh temperature contact thereof.

15. In a refrigerating apparatus, the cornbination of a compressor, a motor for oper-l ating said compressor, a condenser, means for supplying cooling' water to the condenser, including a shut-cti valve, a swiih tor cont-rolling the. current 'supply to the motor, means operated by a variation in the pressure of the cooling water, acting to effeet. 'the' opening of the current supply switch upon the cessation of the water pressure, a thermostat, an alarm device, and ele'-, trically operated means for actuating said alarm device, including a switch device operated by the Water supply valve, a switch device operated' by variation in the water pressure' and which is closed when the current supply switch is open and open when said current supply 'switch' is closed; said means being arranged to efi'ect thc operation of said alarm device, at times when th 'Water supply valve is in its open position, either in case the thermostat acts on the low temperature side thereof or in case the current-supply switch is 'opened by cessation of the water pressure, and also to efi'ect the operation o'f said alarm device at time when thv wntpz nh Vnv@ is dnsed in @use the of wo wi'lnvsses, this 30H1 my of December, thirrnmstul acts nu the lngh temperutu iQ-jl.

sidv rf he thermostat. 4 'BENJAMIN S. MCCLE'MLAN.

in twflnmny. that I, BHNJAMN S, MG- Wltnesses: (`1,Iv:|,r,.\;'\'. nimm the fm'vgomg as my mven- U. Vif". Poom,

tion nx my signature in the presence Ewxir 1iC.V,-NN. 

